Sandwich machine



y 26, 1953 s. F. ANDERSON 2,639,677

SANDWICH MACHINE Filed Dec. 27, 1949 4 Sheets-Sheet l 4 Sheets-Sheet 2 S. F. ANDERSON SANDWICH MACHINE May 26, 1953 Filed Dec. 27, 1949 May 26, 1953 sf. ANDERSON 2,539,677

SANDWICH MACHINE Filed Dec. 27, 1949 4 Sheets-Sheet 5 y 6, 1953 s. F. ANDERSON 2,639,677 7 SANDWICH MACHINE Patented May 26, 1953 SANDWICH MACHINE Swan F. Anderson, Rockford, Ill., assignor of onehalf to himself and one-half to Ralph F. Anderson, both of Rockford, 11].

Application December 27, 1949, Serial No. 135,134

1'7 Claims.

This invention relates to machines for making sandwiches of ice cream and the like.

Ice cream sandwiches f the type comprising a layer of ice cream disposed between two wafers have become a popular confection. In some instances such sandwiches are made manually at the time of purchase and are apt to be unsanitary because of manual handling of the ingredients. Even when made at a central plant the operation has heretofore involved considerable handling of the wafers. Furthermore the cost of making them has been comparatively expensive.

An object of this invention is the provision of a machine for forming ice cream sandwiches and the like in a sanitary manner, at a relatively high rate of production and at a relatively low cost.

Another object of the invention is the provision of a sandwich making machine wherein the components may be readily assembled and disassembled for effective cleaning.

A further object of the invention is the provision of a sandwich machine wherein the wafers or other outer members of the sandwich are mechanically applied to the opposite sides of a flowing stream web of filler material as the material emerges from the nozzle and the stream is severed by ejection of the sandwich across the end of the nozzle.

Another object of the invention is the pro vision of a sandwich making machine of the above character having novel means for feeding wafers along preselected paths.

A still. further object is the provision of a sandwich machine having novel feeding means for the filler material and the outer members to form sandwiches at a relatively high rate of speed and. novel means for ejecting the finished sandwiches and delivering the same to a point of disposal.

Another object of the invention is the provision of a sandwich making machine having novel means for supporting the wafers during the formation of the sandwich.

Another object of the invention is the provision of a sandwich making machine which is efficient, rugged, requires a minimum of maintenance, and is relatively inexpensive to produce.

Another object of the invention is the provision of a sandwich making machine having novel means for coordinating movements of the component parts of the machine.

Other objects and advantages of the invention will become apparent from the following detailed description taken in connection with the accompanying drawings, in Which-- Figure 1 is a fragmentary front elevational view of a sandwich making machine embodying the present invention;

Fig. 2 is a side view of a machine shown in Figure 1;

Fig. 3 is an enlarged fragmentary perspective view showing the means for supporting the sandwich during formation;

Fig. 4 is a sectional view taken substantially along the line 4-4 of Figure 1 showing the nozzle mounting;

Fig. 5 is an enlarged fragmentary view similar to Figure 1 showing a sandwich being ejected from the machine;

Fig. 6 is a view similar to Figure 1 showing the relation of the parts at the start of the formation of a sandwich;

Fig. '7 is a back view of the machine;

Fig. 8 is a top view of the timer mechanism employed in the machine;

Fig. 9 is a side view of the timer mechanism;

Fig. 10 is an electric circuit diagram, and

Fig. 11 is a diagrammatic view of a solenoid valve employed in operating the feeding and ejecting mechanisms.

While the particular machine chosen for illustrating the invention is utilized for making ice cream sandwiches comprising spaced wafers having a layer or filler of ice cream therebetween, it is to be understood that this machine may also be used with other types of plastic comestibles. In general the machine comprises means for discharging a sandwich filler along a preselected path, means for simultaneously feeding cookies or the like hereinafter referred to collectively as wafers, along paths on opposite sides of the filler and into contact with the sides thereof to form a sandwich, and ejecting means for ejecting the formed sandwich and conveying the same to a point of disposal.

As best seen in Figures 1, 2 and 7, the machine of the embodiment illustrated includes a support in the form of a cabinet or housing ll having a front panel 12, a removable back, not shown, and side panels 13. A nozzle 14 (see Figs. 1, 2 and 4) formed by spaced side members [6 and I1 interconnected at their edges around the periphery as indicated at l8 and I9, is mounted on the front I 2 of the cabinet I I. The lower or discharge end 20 of the nozzle is open and defines a generally rectangular shaped opening through which ice cream in a plastic state may flow under pressure in a continuou ribbon-like stream or web. At its upper end the nozzle is formed with a ported boss 2| for connection with a suitable conduit 22 leading to a supply of ice cream in semiliquid or plastic condition, such as emitted from a conventional freezer or filler. The nozzle I4 is secured to the cabinet I I as by spaced stud bolts 23, rigidly attached to the edge I8 of the nozzle and extending through apertures 24 in the front panel, and wingnnuts 26 disposed at. the back of the panel and threaded on rtovthe stud bolts. shouldered portions 21 on the stud bolts 23 space the nozzle I4 outwardly from the front of the cab-. inet.

Wafer magazines 28 are mounted on'"the' front of the cabinet adjacent the sides I6 and I! of the nozzle I4. As best seen inFigs. 1, and 6 each magazine comprises a generally 'U-"shaped ch'an-- nel member having a bottom substantially the width of the wafer and upturned edgeflanges' fl. Brackets 3| bolted to the front panel I2 secure the magazines 28 to the cabinet in an inclined manner so that the extreme lower ends of the magazines are'spaced from the sides I6 and I! of the nozzle I4 a' distance slightly greater than the thickness of the wafers to define discharge openings'32 (Fig! 6). An'inclinedbaffle-'33 spaced above the bottom of each magazine 28 servesas a'guide to insure that the wafers rest against the bottom ofthe magazine withtheir upper edges in substantially coplanar relationship as they approach the end of the magazine.

Thewafers are fed'from'the'magazines 28 by feed plates 34 which ride along the sides I6 and i1 of the nozzle -I4' and reciprocate in a direction parallel therewith. The plate 34 are generally L -shaped as shown by dotted lines in Fig. 2, comprising a-steni 35 and a toe portion '36.

portion- 36 of each plate34 is of substantially the same thickness as the wafers so that when brought i'nto engagement with the upper edge of "the- \vafers as the 'plates move down, thewafers are fed through the openings 32-to'positions" below the -noz'zle'I4. The stem portion' 35 of each plate-34 is received in aslot-"40'for-med on a boss 45 (see Fig-5) at the lower end of a slide'38. A removable-pint! extending-through the boss '45 and both plates 34 securesthe' plates' to the slide.

'The slide'38 is supported ons'uitable ways by *gibs 4| for vertical reciprocation.

While the slide' 38-may-bereciprocatedby a 'numben'of different -mechanisms;'in'-the present embodiment it is connected to a 'pistonrod 42 (see I Fig. '7) 'of a 'conventional air motor "43, a suitable air motor beingon' the market as The 'Bellows Air- Motor made by'The Bellows Company of Akron, 'Ohio. Th 'air-motor 434s mounted-on the back ofthe'front 'p'anel I2 and is connected to the piston rod42-by an arm 44 extending through an opening 25 formed in the front panel I2. "The air motor unit-43 is connected toan air s'upply'through a conduit lfig'an oil filter 41, a

pressure regulator 48, a moisture filter"49 and a conduit 5|. An electrically operatedsolenoid 1 valve 52 'betweenthe" air-motor unit 43 and the conduit 46 controls the' flow of fluid to the air motor unit-L43 in a conventional manner to'efiect reciprocal movement of the piston rod to move 'the'feed plates 34 between aretracted position asshown in Fig. Send an ejecting position as "shownin Figure 1. A limit switch 50 mounted 'on' the back of the front panel I2 is positioned to be'engaged by'an'ear 55 forming a part of the arm 44" for apurpose to be described'hereinafter when the waferfeed'plates 34 are in their retracted position.

1 Provision is made for. supporting the formed sandwicheswbelow: the nozzle I4. To this end The toe plates 53 and 54 (see Fig. 3) are associated with the nozzle and have their extreme lower ends flanged inwardly to define spaced sandwich support rails 56 and 51 directly below the edges of 5 the discharge opening of the nozzle I 4. The rails 56 and 5'! are spaced sufficiently below the end of the nozzle to permit the formed sandwiches to be .smovedrel'ative to' the nozzle I4. Theplate 53 is secured to'the front I2 and the plate 54 is bolted 10.. to the nozzle I4 by capscrews 30.

Th formed sandwiches are held in an upright Tip'ositiombeneath the nozzle I4 by spaced resilient members 58. In this embodiment of the invention these:areformed by holding a central por- -l5 ,tion' 6Iof a piece of rubber in recesses formed in "the plates'53 and 54 so that opposite ends of the 1 "piece: of rubbers extend inwardly of the face of the plates to define the members 58, by a removable cup'ee. The resiliencyof the members 58 is such that a slight pressure is-exerted on the ends of the uafers to prevent the wafers from-:tipping over. An ejector plate 66-isprovided for moving the formed sandwiches from their position below the nozzle I 4 to a sandwich receiving station'fllfor disposal. The ejector is positioned for engagement with the face of the :sandwich vwhen'the. latter-is= supported on the rails: '56. and 5T to I move "the-sandwich therealong.. Extending vrearwardly of the ejector are spaced rods 6'! .(one only. being shown) rigidly. 'attach'ediuto a: transversely". ex-

.tending yoke GB pivotallyzmount'ed on a bearing pin 69 (Fig; 2): extending' outwardly from aqslide 7 It'th'e latter: being movable. along horizontal ways -'-'and=held in aapositionbygibs-TIL A'bracket .13 'attaehed to/theslide 'll supports the.outer:end of the bearing:pin.r69.- Atorsion spring .14 acts between the =yiokeftfi8zandythebracket 'I3:to-v mainit'ain' ithe plate 66. in: a generally vertical .position was shown-:inFigure 1. 'One of the rods 67 indicated at I0 extendsrrearwarjdly'of, or to the right -of; theeyeke 68 asshownin-Figures 1, 5 and 6 and ::has a: laterally extending end'wportion todeflne aafollowerw'lfi engageablewith a-c-am 'I-I- toguide .:the plate =6B as-indicatedin-Fig. 6 as itmoves between'; the "position of Fig. 5: and that of Fig- ;-ure 1. The cam: This ,pivotallymounted.on-the top=gib -l2z by. a pin-18-andisprevented from swinging downward from the position of Fig. 5-by a pincl'Qengageable against the .top' of thegib. Thecam as best 'seenin Fig. 5 has a fiat. top edge -84, a 'rear-edge 82, abottom edge fi and aforward edge 84. The-rear edge. inclines slightly -from the. topedge-to thebottom edge 83, the bot- -.tom .-ede'e-.83 inclines away from the top edge wwith'the inclination :being greater adjacent the forward edge- 84,: and the-forward edge 84 incl-ines rearwardly fromthebottom ed e .83 to wthetopedge BI.

The slide TI is connected to a piston rod- 86 -.of an air.-2notor- 88-, mountedon the backef the rfrontapanel I 2,-zthrough alsu-itable, arm 89 extending-.- through a-slQt-SQ. I The. air. motor- 88 is positioned so that thepiston rod :86 recipro- --cates. in a: horizontal direction to move the plate (Sh between its retracted and extended-positions -showniii-Figs. lwand fi-respectivelyand is connected to-the'air supply 5Ias by a.conduit-84. r. A control -valver controls theflow of air to the air-motonBB. -An ear 91- on the arm 85 is 70.ishaped; to engage, a plunger on a limit switch 92 mounted on theback of the front panel I2 1 when the pusher-E8 is in the ejecting position, for

1 a purpose tor-be described hereinafter.

For .the purpose. of. simplifying the-drawings .75 the solenoid va1veo85-iszshownzdiagrammatically 5 in Fig. 11 and the principle of operation of the Bellows Air Motor is described so that the flow paths of fluid through the valve may be readily visualized. The valve includes a casing IOI having a chamber I02 formed therein, ports I03 and I04 connected with the pasageways 96 and 91 respectively and a port I06 in communication with the air supply conduit 5I through the conduit 84. Disposed in the chamber I02 is a valve element H3 movable between opposed positions. At opposite ends of the casing IOI are spring biased valves III and H2 normally urged to closed positions and movable to an open position to effect communication between the chamber I02 and atmosphere upon engagement of the valve element H3 with shaft portions on the valves III and H2 in each of the positions of the valve element H3. The movement of the valve element H3 is controlled by solenoid coils H and I I1. When the coil I I6 is energized the valve element H3 is moved to assume the position shown in Fig. 11. In this position the element H3 closes the opening in the coil H6 shaped to receive an axially extending projection I05. Thus air flows from the port I06 through the opening in the coil II1 shaped to receive an axially extending projection I08 on the element H3 to the port I04 to the passageway 91 to the back end of a chamber 98 formed in the unit 88 and air at the opposite end of the chamber 98 is dischargedthrough the passageway 30, the port I03 and the spring biased valve H2, the opening which is controlled by the valve element H3 and the adjustable orifice I I8. When the coil I I1 is energized the valve element II3 moves to assume a position opposite that shown in Fig. 11 so that the element H3 closes the opening in the coil H1. Thus air may flow from the port I00 through the opening in the coil H0 to the port I03, into the passageway 90 to one end of the chamber 08 and the air at the opposite end of the chamber may be discharged from the chamber 90 through the passageway 91, the port I04 and the spring biased valve port III, the opening of which is under the control of the valve element H3 and the adjustable orifice H9. The control valve 52 is of identical construction including solenoid coils I2I and I22 (see Fig. 10) and operates in the same way as the valve 05.

The electric circuit for the sandwich making machine is shown in Fig. 10 and the locations of the various elements are shown in Fig. 7. The circuit includes a main switch I23, a transformer I24, a timer I23, the limit switches 50 and 92 and the electrically operated control valves 52 and 85. As shown the main switch I23 is mounted on a side I3 of the cabinet II and is actuated by an actuator H (see Fig. 2) accessible from the exterior of the cabinet. As shown in Fig. the main switch I23 is connected to power lines LI and L2 and is connected tothe high voltage side of the transformer through conductors I28. and I23. A mid-tap on the low voltage side of the transformer is grounded as by a conductor I3I. One side of the low voltage winding of the transformer is connected to a normally open switch I33 on the timer I25 by a conductor I34. The opposite side of the normally open switch is connected to a coil I2I of the solenoid operated valve 52 through a conductor I35. The opposite side of the coil I2I is connected to ground through a conductor I31. The opposite side of the normally open switch I33 is also connected to one side of the coil I I1 of the solenoid operated valve 85 by a conductor I39. The opposite side of the.

coil 01 is connected to ground by a conductor I4 I. The other side of the low voltage winding of the transformer is connected to the normally open limit switch 50 through conductors I42 and I43. The-switch 50 is also connected to one side of the coil I22 of the solenoid operated valve 52 by a conductor I44. The other side of the low voltage winding of the transformer I24 is also connected to the normally open limit switch 92 by the conductors I42 and I46. The normally open switch 92 is in turn connected to the coil H0 on the solenoid valve by a conductor I48. A motor I52 of the timer I20 is connected to the conductors I28 and I23 by conductors I53 and I54. A light I50 is connected across the lines LI and L2 as by conductors I51 and I58, and is for the purpose of providing heat in the cabinet II to prevent the formation of condensation therein.

The timer I26, which initiates the cycle of operation, is best shown in Figs. 8 and 9 and includes a frame IBI supported on the back of the front I2 of the cabinet II. The motor I52 is mounted on one side of the frame IBI and is provided with a drive shaft I02 extending through an opening in the frame. A pinion gear I63 is mounted on the drive shaft I62 to mesh with a spur gear I64 mounted on a shaft I36. The spur gear I04 is directly connected to a pinion I01 shaped to mesh with a spur gear I38 mounted on a bearing pin I39. At right angles to the face of the gear I68 is a friction wheel I1I mounted on a plate I12 disposed between opposed legs I13 and I14 of the frame. The plate I12 is threadably supported on an adjustable bolt I16 supported at opposite ends by the legs of the frame ISI so as to be substantially at right angles to the drive shaft I32. Rotating the adjustment bolt I10 as by a knob I16 (see Figure 1) accessible from the front of the cabinet, changes the relative position of the friction wheel I1I with respect to the face of the gear I38 (see dotted line position of wheel shown in Fig. 8) so that the speed of the friction wheel I1I may be varied. A pin I8I extends outwardly from one side of the friction wheel I1I to engage an actuator I02 of the switch I33 mounted on the plate I12. A spring I82 acts between an ear I33 and the frame IBI to urge the friction wheel I1I into frictional engagement with the face of the gear I68.

Operation It is assumed that the how of ice cream or other material from the nozzle I4 has been adjusted so that a continuous ribbon-like stream is being continuously discharged from the end of the nozzle and that the parts are in the position shown in Fig. 5.

When the main switch I23 is closed the motor I52 is also energized by power flowing through conductors I53 and I5 3 to effect rotation of the gear I68 to drive the friction wheel HI and cause the pin IBI to momentarily engage the actuator I82 to close switch I33 once each time the wheel I1I goes through one complete revolution. As soon as the switch I33 closes, power flows to the coil H1 of the solenoid valve 85 through the conductors I34 and I39 to ground through the conductor I4I. Simultaneously the coil I2I of the solenoid valve 52 is energized through the circuit comprising conductor I34, the conductor I30, the coil I2I, the conductor I31 and ground.

' When the coil H1 is energized the valve element I I3 of the valve 85 is shifted to the position shown inFigure 11 so that the air from the supply line enters the chamber 98 of. the air motor unit Fig. 5.

. 88 through :the portiii fl lswandz theppassageway sl iand airzat :theioppositezendiof: theuchamberIiSB -exhausts-to; atmosphere :through the-passageway .9 6; the: port :l'03;;the exhaustrvalve I 2 and the 'adjustablesorifice: H 8. .l'Thapiston :rodtf861o;the 5 airv motor- 11niti88 is. moveduto thesposition shown :in Fig; 7 and ithe slide 1 h and Lthe-ejectomli St: are imoved. horizontally to 'atheir -.;extended :position shown in Fig. 5 'from. the. positionzshown: in F-igure 1. 1. During. this ihorizontal movementithe ejector 1:10

65 engages the sandwichformedbelow the nozzle .Mtand'urges thesandwich along therails' 56and S'L-toathe sandwich.receivingstationafil and shears the layer-of filler. from the stream on-the1lower edge of.-.the nozzle; Duringtheformation ofthe 15 sandwich the resilient: members 58' engagei'opposite ends of thesandwich as best shown :in-Fig. 3 and support-the latter in :endwise relation souas --to be in position to be engaged by the ejector 66.

Alsoduring: this movement the .follower' 153811-020 gages the bottom edge'i83 of the cam ll-and effects rotation thereof aboutithe pin- 18 so that thefollower 16- raises the cam to permit passage of the follower thereunder without deflecting the ejector, it being understood thatvas soonas thefollower-clears the bottom edge 83 of .the cam'l'l the: cam returns'sto .positionashowntin' Fig. 5 by gravity. When the'ejector 66' reaches itsrextended position shown in 'Fig. 5 the ear. Stagain engages the'plunger. on' the limit switcha 92 =to-'=30 -close the latter and-*e'ffect return movement of the-ejector.

Concurrentlywith the energization of the coil '12! of valve 85 the coil "I72 in thevalve 52 is energized so that the 'valve element therein is35 -positionedto cause'the' piston rod 42 and in turn the plate's 34 to move from their extended position in Figure 1 to' their retracted position shown in During the upward movement of the plates 34 the guides-'33 serve to retain the wafers '40 in the magazines whichpress against the sides of the plates-34; When the 'feed plates -34 reach their retracted position asshown in Fig. 5 the ear engages the 'plunger'on the switch 50 to close the latter.

As soon as the switch-50 closes the coil I22 in' the solenoid valve 52- is energized through a circuit which may betraced from thetransformer I24 through the--conductor=-l42,- the conductor I43, the limit switch-5D,. the conductor J44, the; coil I22, theconductor I31 to ground. This moves the valve element .I I3 of-valve52ito establish communication' from air line to-theupper side of the piston in motor 43; and between thef'lower side'of the piston andatmospherefi. The adjust- ,55 able orifice inthe-lattercommunication is.ad-

v.justed toallow theair ,to exhaust at, a rate to produce a-suitable .rate. of -movement of, thepis- .ton .QZWand slide 4| to move thewafers rapidly downwardly into seated position against therams.

.56- and: 51. Under these 'conditions air enters charged'iromthe nozzle l l' expands sufliciently :toieffectadhesiveicontactwith the wafersasthey ware beingifed.axiallyz'ofithe nozzle. '.As the ice cream continuesto.flowifromthenozzlethe space :ebetween the ejected-uwafers' .fills. t The. .timer is adjusted toustarti a new cyoleowhenigthaspace. is

.substantiallyfilled, [the interval depending: upon the rate of flow from the nozzle.

' 1 When1the limit-switch 92- is closed, the :coil' H 6 onthe solenoid valve is also energized through the circuitlcomprising theconductor |42,-the conductor l'46,;thelimitswitch 92 ,;the conductor i148, vthereon H 6;"15116 conductor Ml to ground. .As a result the valve, element H3 is shifted to a posit-ionso' that air-enters the chamber 98 through ,the .port I 03, the. passageway" 96 and exhaust air :flows from the chamber 98 through the passageway 91,: the portvl M,v the exhaust .valve l'l laand the'radjustable-r orifice H9. The.;.pist onrod. and: slide move to the left". to the position: shown Lin- Fig. 7 so'thattheaejector; 8E is thus causedto -move fromiitsextended position shown-in Figure 5 ;toits" retracted .position shown in? Figure. l. wDuringflthe initialxpart of this movement ofJthe ejector-.266, the'iol-lower.l6 engages the forward tedge'84 of the .camll (see' Fig. 6) andzcauses ;,the' ejector. tobe deflected awayzfrom the opening' ofzsthe nozzle I 4' in coordinated relation with athearadvance of therwafers and 'layer of; filler LthGIGbK-ZtWBGII-JSO that-the. ejector 66'does not-interfere with' the formationof a sandwiches it-is moved toits' retracted posiion. The follower 116 successively engages: the top iedge'8l, and .the bHJCkGdgBfBZ Of the cam:.as' the slide H'- moves ':'to the rightas shown in Fig. 7soasto return the ejector to: its retracted position shownin Figure 1.

As soon as the slideI138 moves away from its upper position to. feed wafers from themagazines '28, the: limit:switch"50 moves to its open position thereby de-energizing the circuit tothe .coill22. Also as-soonr as the slide ll: moves to move'the'ejector' 66 from its extended to its retracted po'sitionlthe,limit switch92 opens to deenergize the cireuittotheooil H6. However,in bothinstances the air pressure-againstyalve ele- -ment 'll3 retains' the valve in its adjusted posi- "tion until the opposedcoil is energized.

"The adjustable exhaust o'rifices H8 and H9 on thevalves are 'adjusted to provide for slow feed and'rapid return movement of the ejector "66'. The speed-0f operation of the sandwich machine may be varied by adjusting the position of the friction wheel IH with respect-to the face of the gear'168 through the knobl18 accessible'from the front of the cabinet. The machine remains in operation until the switch 123 is opened.

The aforegoing construction has many advantages. For -example, the nozzle [4 may be easily assembled and disassembled from the cabinet. To-disassemble the nozzle from the cabinet, the

- Wing-nuts-2S are manually moved from the stud bolts'23. "The nozzle 14 maybe removed as a unit from the front'l2'0f the cabinet H. Re- -moval of the nozzle ld-also effects removal'of the rail-5! and resilient supports 58 engageable -with one of the ends of the formed sandwich. This allows the operator of the machine to thoroughly clean the nozzle and the front of'the machine. The-resilient members 58 may be readily removed from the machine since they are supportedithereon; by clips. "The timer and the. adjustable orifice provide'means for controlling the speed of operation of-"the unit. This machine -may-be readily-formed-and allcomponents are readily accessible. The machine also insures that sandwiches may be formedin a 'clean sanitary manner. I-fc1aimz 17in a'wmachine'foriorming asuccession-of sandwiches;means for continuously advancing a ribbon-like web of plastic com'estible, means for advancing wafers of approximately web width into face-to-face relationship on opposite sides of said web and means for concurrently operating said wafer-advancing means in timed relationship with the rate of flow of said web.

2. In a sandwich making machine, means for continuously advancing a ribbon-like web of plastic comestible to a preselected position, means for feeding wafers against opposite sides of the web into face-to-face relationship while the web is advancing, the wafers having a dimension crosswise of the web at least as great as that of the web, and means for severing the formed sandwich from the web.

3. In a sandwich forming machine, a nozzle for continuously extruding a ribbon-like web of plastic comestible into a sandwich formingstation, means for feeding successive pairs of wafers longitudinally of the nozzle along opposite sides of the advancing web into face-to-face relation at said forming station and means for retaining the wafers in the forming station for the space therebetween to be filled with said comestible.

'4. In a sandwich forming machine a nozzle having a mouth shaped to form a ribbon-like web from plastic comestible supplied thereto under pressure, wafer magazines for holding wafers of approximately web width, means for successively feeding wafers simultaneously one from each magazine to positions adjacent the mouth and on opposite sides of the web and means for severing the formed sandwich from the web.

5. In a sandwich forming machine a nozzle having a mouth shaped to discharge arribbonlike web of plastic comestible supplied thereto under pressure, wafer magazines for holding wafers of approximately web width, means for successively feeding wafers simultaneously one from each magazine to positions adjacent the mouth and on opposite sides of the advancing web, and means for moving the formed sandwich in a direction to bring an edge of one wafer across the mouth of the nozzle and sever the web.

6. In a sandwich forming machine, a nozzle having a mouth shaped to discharge a continuous ribbon-like web of plastic comestible supplied thereto under pressure, wafer magazines on opposite sides of the nozzle for holding wafers of approximately web width having wafer discharge openings at opposite sides of the nozzle, means for simultaneously feeding wafers through each of the discharge openings in succession along opposite sides of the nozzle to spaced positions beyond the mouth for the reception of the web therebetween, and means for successively discharging the sandwiches as formed in a direction to bring an edge of one wafer across the mouth of the nozzle and sever the web.

'7. The combination of claim including means for retaining the wafers in approximately parallel relationship beyond the mouth and during discharge movement of the sandwich.

8. The combination of claim 6 including means for alternately operating the wafer feeding means and the sandwich discharging means in timed relationship.

9. In a sandwich forming machine, a nozzle having a downwardly opening mouth shaped to discharge a continuous ribbon-like web of plastic comestible supplied thereto under pressure, wafer magazines on opposite sides of the nozzle for holding wafers of approximately web width and having wafer discharge openings at opposite sides of the nozzle, means for simultaneously feeding wafers through each of the discharge openings along opposite sides of the nozzle and advancing web to spaced positions beyond the mouth for the reception of the. advancing web therebetween, means for successively severing the formed sandwiches from the web and discharging the same as formed, spaced rails below the nozzle disposed for engagement by the wafers to support the sandwich at the mouth of the nozzle and resilient means engageable with the edge of the sandwich to retain the sandwich in upright position while being formed and discharged.

10. In a sandwich forming machine a nozzle having fiat opposed sides and connecting edge portions defining a narrow donwardly opening mouth shaped to discharge a continuous ribbonlike web of plastic comestible supplied thereto under pressure, wafer magazines on each side of the nozzle comprising slideways sloping downwardly toward the nozzle for supporting stacks of wafers, on edge in face-to-face relationship with the lowermost wafer of the stacks resting against said fiat opposed sides of the nozzle, the slideways having feed openings for the passage of the lowermost wafer, a feeder plate disposed against the flat sides of the nozzle reciprocable in unison longitudinally of the nozzle to engage the upper edges of the lowermost'wafer in each magazine and. move them through the feed opening to spaced positions beyond the mouth during the advance of the web, means for supporting the wafers at the mouth while the web advances to fill the space between the wafers and means for moving the sandwich across the mouth of the nozzle to sever the web and discharge the sandwich.

11. The combination of claim 2 wherein the last-mentioned means includes an ejector movable between opposed positions on opposite sides of the path of the web and engageable with the side face of one of the wafers, and means for moving said ejector to move the sandwich crosswise of the path of the web to shear the web at the mouth of the nozzle.

12. The combination of claim 5 wherein the last-mentioned means includes an ejector, means for moving said ejector between a retracted and an extended position on opposite sides of the path of the web and means for guiding the ejector crosswise of the nozzle into engagement with the sandwich to discharge the same as the ejector moves from said retracted to said extended position and for guiding the ejector crosswise and axially of the nozzle out of the path of the wafers as the ejector returns to said retracted position for formation of a subsequent sandwich during return movement of the ejector.

13. In a sandwich making machine, a support, a nozzle mounted on the support having a downwardly opening mouth shaped to deliver a ribbonlike web of plastic oomestible supplied thereto under pressure, wafer storage magazines on opposite sides of the nozzle, feed plates reciprocable to simultaneously feed a wafer from each of said magazines along the sides of the nozzle and advancing web to a forming station beyond the end of said nozzle, a plate slide for mounting said plates, ways on said support for said slide, means for reciprocating said slide to move the plates in feeding and return movement, an ejector spaced from the end of said nozzle and movable transversely thereof between a retracted and an extended position on opposite sides of the nozzle, a movable ejector slide, means for pivotally mounting said.:ejectorionxsaid ejector slide;(ways on tsaid support forisai'd ejector slide, .m'eans 01: reciprocatinga. said ej ectorx slide t to move";- said ejector betweensaid retracted andtextended posi-i tions.-oni.cpposite sides'ofi said station and cam means. acting between lsai'd isuppo'rti'andr said ejectorfor guiding;v said ejector from stheiretracted position :into contact -Withilth6: sandwich; at said station andtthence to saidtextended position to discharge the sandwichand for initiallyidefiecting the ejector axially awaytfromithezendlof the nozzle as the =16j60t01l Imoves ttransverselyi of. :the nozzle in moving from its extended totthe re tracted positionzito.clear the: space belowxthe nozzle.-

14. The ccmbinationeof claim 13.;hiwing .control means for controlling the frequency and the order. of reciprocation. of said-plate slide. and 'saidflejecs. tor slide.

15; In a sandwich. makingmachinar a support, a nozzle mountedonithe supportzrhavingadown wardly opening mouth; shapedrtocdeliver a :rib' bonvlikel-web 'of plastic comestiblesupplied thereto under pressure :fon: delivering-.xalong i a pre-. selected :ivertical pathgt inclined-swafer: storage. magazines on "opposite :sides. f:.the-=nozzle;a-wafer feed. .plates tassociated witht;.-said magazines. to simultaneously, -.feed a waferaifrom'teach of .said magazines downwardly "along-.theisides of thead-v vancing web to'a formingstatiOn beloWsaid nozzle, a vertically r movable slide :i'or: mounting said plates,llreciprocable means for'imoving- .said1 slide to move the platesanzejecton belowisaid .nozzle movableutransaxiallyr thereof ifromza .retracted to an extended positionaont opposite sides on the path. ofasaid....web :to 1. engage and i'discharge2a formed sandwich from said forming stationna horizontally movable slide-,1- meansaforiapivotally mounting said. ejector=.:on saidthorizontally move able slide, reciprocable meansnfor :moving said horizontally movablerslideito lm'ove' said; ejector between said retracted and .an extended position; and means for controlling the speed"of..move= ment of said slides.

16. In a sandwich making. machine-:a'support; means for continuously advancing La ribbon-like web of plastic comestible along a preselected vertical path, a wafer magazine on each side of said path, wafer feedmeans for simultaneouslyfeed- .a wafer from' each of said l-magazinesi'into engagement with said web on opposite 1 sides thereof, pressure fluidmeans 'for. actuating said feedimeans to :eject wafers from the magazines; sandwichejector means and pressure 'fluid means for moving said ejector means.transverselysof the path of the web between a-retracted and an extended position for severing .the formed: sandwich from the web.

17. In a sandwichmakingmachine, meansfor feedinga continuous ribbon-likeweb'of plastic comestible alonga preselected path, means for simultaneously feeding. wafers on opposite sides of said web at a preselectedrate of speed to ten-'- gage said-web on opposite sides thereof inzfacee to-face relation, means for adjusting said rate of speed, and means for movingnthe formed'sandwichcrosswise of the web to sever and discharge the sandwich.

SWAN FLANIJERSON.

References Cited in the file of this patent UNITED STATES PATENTS Number Name Date 1,585,114 Rondolin May 18,=1926 1,755,699 Loehr Apr. 22, 1930 1,798,560 Saetta Mar."31,- 1931 2,136,505 Hirschson Novu15; 1938 2,521,213 Gentry Sept; 5,-1950 FOREIGN PATENTS Number 1 Country; Date v r 291,811 Germany May,10;-1916 

